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Scott Griffin Bay City Independent School District High School IPC teacher E3 Summer 2008 Research topic: “Flooding” during countercurrent flow Mentor: Dr. Karen Vierow TAMU Nuclear Engineering Dept.
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TAKS Objectives 4&5 – Chemistry and Physics Fission – Elements - Atomic particles - Phase Heat transfer - Boiling Point - Work, Power and Energy - Nuclear power TAKS Objective 1 – Lab Safety and The Scientific Method Accurate measurements – Data Collection and Recording – Graphing Data
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We start with Chemistry – so, the students will have been exposed to the terms and concepts that pertain to chemistry I will use this project as a “special week” to tie together the Chemistry & Physics aspects Also to promote the “Engineering” and Nuclear power opportunities that are opening up for them
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Pre-test Diagnostic tool Some of the questions will be from previously covered material Some from material to be discussed during the week’s activities Sample: At what temperature does water boil A.100 F B.100 C C.200 F D.212 C
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In winter the air just above the top bunk of a bunk bed is warmer than the air just above the bottom bunk because warm air rises. Which of the following describes the method of heating that causes this difference in temperature? F. Radiation from the room G. Heat transfer through the walls H. Convection currents in the room J. Heat conduction through the bed
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1. Who can get their water the hottest? Boiling is getting rid of heat – 100 degrees C max. Pressure – Boiling point elevation – Phase change – Nuclear primary loop 2. Heat Transfer in Electrical Power Generation “Primary Loop” – “Secondary Loop” Heating – Efficiency – Safety – Environmental impact
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Lab Activity Who can get their water the hottest? Obviously, VERY CAREFUL SUPERVISION IS REQUIRED ALONG WITH STRONG WARNINGS OF THE DANGERS INVOLVED WHEN DEALING WITH HEAT AND STEAM. MATERIALS NEEDED: Hotplates, Ring stands, Bunsen burners, beakers or small saucepans, thermometers Announce that there will be a lab activity in the form of a competition today. Get the students into as many teams as your equipment and lab space will allow. Allow them to choose either a hotplate or Bunsen burners for a heat source. With EXTREME CAUTION, let them heat the water until boiling. OF COURSE everyone will have the same temperature. Turn off all heat sources and explain what “boiling” is. NOW heat some water in a pressure cooker equipped with a pressure gauge and a thermometer. Explain “boiling point elevation” and how pressure affects the phase change. Show how this principle is directly related to the primary loop of a pressurized water reactor at a nuclear power plant. ( 550 degrees F and 2200PSI)
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Heat Transfer Lab Purpose: To understand how heat is transferred from a “primary” loop to a “secondary” system without mixing the two water sources. Goal: To record the rate at which the secondary system absorbs heat from the primary loop. Materials: Hot plate, 2 Erlenmeyer flasks, 2 Thermometers, 3 feet of copper tubing, a two-hole rubber stopper, timer. Setup and procedure: Fill both flasks about half full. Place two-hole stopper in one of the flasks and place it on the hot plate. (Place the other flask on a heat resistant surface next to the hot plate.) Install the copper tubing through one of the holes in the stopper, (just into the air space, NOT into the water.) The coil end of the copper tubing goes into the other flask, (all the way into the water. Place one thermometer through the other hole in the stopper, (all the way into the water. The second thermometer goes into the other flask.
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It’s safe It’s efficient It’s clean
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TAKS objectives 1, 4 & 5 1 - Scientific method – accurate measurements 4 & 5 – Chemistry and Physics TEKS - (c) Knowledge and skills. (1) Scientific processes. The student, for at least 40% of instructional time, conducts field and laboratory investigations using safe, environmentally appropriate, and ethical practices. The student is expected to: (A) demonstrate safe practices during field and laboratory investigations; and (B) make wise choices in the use and conservation of resources and the disposal or recycling of materials. (2) Scientific processes. The student uses scientific methods during field and laboratory investigations. The student is expected to: (A) plan and implement investigative procedures including asking questions, formulating testable hypotheses, and selecting equipment and technology; (B) collect data and make measurements with precision; (C) organize, analyze, evaluate, make inferences, and predict trends from data; and (D) communicate valid conclusions.
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And daily interaction with Niki Williams & Dr. Isaac Choutapalli New programs and support by Dr K. L. Peddicord
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Additional funding Continuing Education Interest in local community
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